/** * Returns a new RandomAccessInputStream around the raw handle underlying the provided stream, * instead of using a zip handle. * * <p>NB: closes the provided stream. */ public static RandomAccessInputStream getRawStream( final LocationService locationService, final RandomAccessInputStream stream) throws IOException { // NB: We need a raw handle on the ZIP data itself, not a ZipHandle. final String id = stream.getFileName(); final IRandomAccess rawHandle = locationService.getHandle(id, false, false); return new RandomAccessInputStream(locationService.getContext(), rawHandle, id); }
/** * Extracts the String id of the provided stream. * * @param locationService - The location service to use for mapping files * @param stream - Stream, built around a .zip file, to extract the actual id from * @param mappedFiles - Optional param. If provided, all discovered entries in the underlying * archive will be added to this list. * @return An id of the base entry in the .zip * @throws IOException */ public static String unzipId( final LocationService locationService, final RandomAccessInputStream stream, final List<String> mappedFiles) throws IOException { final ZipInputStream zip = new ZipInputStream(stream); ZipEntry ze = null; while (true) { ze = zip.getNextEntry(); if (ze == null) break; final ZipHandle handle = new ZipHandle(locationService.getContext(), stream.getFileName(), ze); locationService.mapFile(ze.getName(), handle); if (mappedFiles != null) mappedFiles.add(ze.getName()); } final ZipHandle base = new ZipHandle(locationService.getContext(), stream.getFileName()); final String id = base.getEntryName(); base.close(); return id; }
/** * The CodecOptions parameter should have the following fields set: {@link CodecOptions#width * width} {@link CodecOptions#height height} * * @see Codec#decompress(RandomAccessInputStream, CodecOptions) */ @Override public byte[] decompress(final RandomAccessInputStream in, CodecOptions options) throws FormatException, IOException { if (in == null) throw new IllegalArgumentException("No data to decompress."); if (options == null) options = CodecOptions.getDefaultOptions(); in.skipBytes(8); final int plane = options.width * options.height; stride = options.width; final int rowInc = stride - 4; short opcode; int nBlocks; int colorA = 0, colorB; final int[] color4 = new int[4]; int index, idx; int ta, tb; int blockPtr = 0; rowPtr = pixelPtr = 0; int pixelX, pixelY; final int[] pixels = new int[plane]; final byte[] rtn = new byte[plane * 3]; while (in.read() != (byte) 0xe1) { /* Read to block metadata */ } in.skipBytes(3); // totalBlocks = ((options.width + 3) / 4) * ((options.height + 3) / 4); while (in.getFilePointer() + 2 < in.length()) { opcode = in.readByte(); nBlocks = (opcode & 0x1f) + 1; if ((opcode & 0x80) == 0) { if (in.getFilePointer() >= in.length()) break; colorA = (opcode << 8) | in.read(); opcode = 0; if (in.getFilePointer() >= in.length()) break; if ((in.read() & 0x80) != 0) { opcode = 0x20; nBlocks = 1; } in.seek(in.getFilePointer() - 1); } switch (opcode & 0xe0) { case 0x80: while (nBlocks-- > 0) { updateBlock(options.width); } break; case 0xa0: if (in.getFilePointer() + 2 >= in.length()) break; colorA = in.readShort(); while (nBlocks-- > 0) { blockPtr = rowPtr + pixelPtr; for (pixelY = 0; pixelY < 4; pixelY++) { for (pixelX = 0; pixelX < 4; pixelX++) { if (blockPtr >= pixels.length) break; pixels[blockPtr] = colorA; final short s = (short) (pixels[blockPtr] & 0x7fff); unpack(s, rtn, blockPtr, pixels.length); blockPtr++; } blockPtr += rowInc; } updateBlock(options.width); } break; case 0xc0: case 0x20: if (in.getFilePointer() + 2 >= in.length()) break; if ((opcode & 0xe0) == 0xc0) { colorA = in.readShort(); } colorB = in.readShort(); color4[0] = colorB; color4[1] = 0; color4[2] = 0; color4[3] = colorA; ta = (colorA >> 10) & 0x1f; tb = (colorB >> 10) & 0x1f; color4[1] |= ((11 * ta + 21 * tb) >> 5) << 10; color4[2] |= ((21 * ta + 11 * tb) >> 5) << 10; ta = (colorA >> 5) & 0x1f; tb = (colorB >> 5) & 0x1f; color4[1] |= ((11 * ta + 21 * tb) >> 5) << 5; color4[2] |= ((21 * ta + 11 * tb) >> 5) << 5; ta = colorA & 0x1f; tb = colorB & 0x1f; color4[1] |= (11 * ta + 21 * tb) >> 5; color4[2] |= (21 * ta + 11 * tb) >> 5; while (nBlocks-- > 0) { blockPtr = rowPtr + pixelPtr; for (pixelY = 0; pixelY < 4; pixelY++) { if (in.getFilePointer() >= in.length()) break; index = in.read(); for (pixelX = 0; pixelX < 4; pixelX++) { idx = (index >> (2 * (3 - pixelX))) & 3; if (blockPtr >= pixels.length) break; pixels[blockPtr] = color4[idx]; final short s = (short) (pixels[blockPtr] & 0x7fff); unpack(s, rtn, blockPtr, pixels.length); blockPtr++; } blockPtr += rowInc; } updateBlock(options.width); } break; case 0x00: blockPtr = rowPtr + pixelPtr; for (pixelY = 0; pixelY < 4; pixelY++) { for (pixelX = 0; pixelX < 4; pixelX++) { if ((pixelY != 0) || (pixelX != 0)) { if (in.getFilePointer() + 2 >= in.length()) break; colorA = in.readShort(); } if (blockPtr >= pixels.length) break; pixels[blockPtr] = colorA; final short s = (short) (pixels[blockPtr] & 0x7fff); unpack(s, rtn, blockPtr, pixels.length); blockPtr++; } blockPtr += rowInc; } updateBlock(options.width); break; } } return rtn; }
/** * The CodecOptions parameter should have the following fields set: {@link * CodecOptions#interleaved interleaved} {@link CodecOptions#littleEndian littleEndian} * * @see Codec#decompress(RandomAccessInputStream, CodecOptions) */ @Override public byte[] decompress(final RandomAccessInputStream in, CodecOptions options) throws FormatException, IOException { BufferedImage b; final long fp = in.getFilePointer(); try { try { while (in.read() != (byte) 0xff || in.read() != (byte) 0xd8) { /* Read to data. */ } in.seek(in.getFilePointer() - 2); } catch (final EOFException e) { in.seek(fp); } b = ImageIO.read(new BufferedInputStream(new DataInputStream(in), 8192)); } catch (final IOException exc) { // probably a lossless JPEG; delegate to LosslessJPEGCodec in.seek(fp); return new LosslessJPEGCodec().decompress(in, options); } if (options == null) options = CodecOptions.getDefaultOptions(); final byte[][] buf = AWTImageTools.getPixelBytes(b, options.littleEndian); // correct for YCbCr encoding, if necessary if (options.ycbcr && buf.length == 3) { final int nBytes = buf[0].length / (b.getWidth() * b.getHeight()); final int mask = (int) (Math.pow(2, nBytes * 8) - 1); for (int i = 0; i < buf[0].length; i += nBytes) { final int y = DataTools.bytesToInt(buf[0], i, nBytes, options.littleEndian); int cb = DataTools.bytesToInt(buf[1], i, nBytes, options.littleEndian); int cr = DataTools.bytesToInt(buf[2], i, nBytes, options.littleEndian); cb = Math.max(0, cb - 128); cr = Math.max(0, cr - 128); final int red = (int) (y + 1.402 * cr) & mask; final int green = (int) (y - 0.34414 * cb - 0.71414 * cr) & mask; final int blue = (int) (y + 1.772 * cb) & mask; DataTools.unpackBytes(red, buf[0], i, nBytes, options.littleEndian); DataTools.unpackBytes(green, buf[1], i, nBytes, options.littleEndian); DataTools.unpackBytes(blue, buf[2], i, nBytes, options.littleEndian); } } byte[] rtn = new byte[buf.length * buf[0].length]; if (buf.length == 1) rtn = buf[0]; else { if (options.interleaved) { int next = 0; for (int i = 0; i < buf[0].length; i++) { for (int j = 0; j < buf.length; j++) { rtn[next++] = buf[j][i]; } } } else { for (int i = 0; i < buf.length; i++) { System.arraycopy(buf[i], 0, rtn, i * buf[0].length, buf[i].length); } } } return rtn; }